A combination of drugs, electrical stimulation and treadmill exercises was used to reawaken 'walking circuits' in the spinal cords of paralysed rats

    People who are left wheelchair-bound by spinal cord injuries could regain some of their mobility through a rehabilitation programme being developed by scientists. Guardian neuroscience stories have found that a combination of drugs, muscle stimulation and treadmill exercises helps paralysed rats to recover the ability to walk normally.

    The animal tests pave the way for clinical trials in humans, which scientists hope to begin in the US and Switzerland within five years.

    The treatment, developed by neurologists at the University of Zurich and the University of California in Los Angeles, taps into neural circuits in the spinal cord that control the muscles used for walking.

    In able-bodied people, these "walking circuits" spring into action when they receive a signal from the brain, but if the spinal cord is damaged, the message from the brain never arrives. When contact with the brain is lost, the circuits shut down.

    "We've known for more than a century that there are networks of neurons in the spinal cord that generate the rhythmic activity needed for walking," said Grégoire Courtine at the Experimental Neurorehabilitation laboratory in Zurich. "Our study suggests that the brain mostly sends a go or no-go signal."

    A team led by Courtine used drugs known as serotonin agonists to awaken the walking circuits in paralysed rats whose spines had been severed. The researchers then used tiny electrodes to stimulate the animals' spinal circuitry, according to a report in the journal Nature Neuroscience.

    During the eight-week study, the rats spent 20 minutes a day walking on a treadmill. At first they were unable to move their hind legs at all, but by the end of the study they could support their weight and walk almost perfectly. Although the rats had regained the ability to walk, they were still reliant on an electrical wire to switch their movements on and off.

    Courtine said the group is eager to begin human trials, but first needs to develop implantable electrodes to stimulate the walking circuits in patients' spines.

    "With a neuroprosthesis, we could get some improvement in function in patients with severe spinal cord injuries," he said. "The majority of patients have some intact spinal nerves that give them a limited ability to move their muscles. For these patients, our intervention could be extremely beneficial."

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